Although the general trend in commercial and industrial
robotics is in the direction of more and more autonomy, and consequently the
continual reduction of human involvement, there exists another parallel, yet
opposite, trend which has its roots in the original explosion of robotic
development in the 1960¹s and which is currently gaining some increased
popularity and visibility in both the entertainment and research fields of
robotics.

This opposing trend
specifically calls for the incorporation of a human operator INTO the
robot.This paradigmatic shift in
the conception of machine control brings about a variety of consequences, some
of which are philosophical, and some of which are just pretty damn exciting and
fun.

In essence, the presence of a
human operator at the core of the machine obviates the need for sophisticated
control technologies; the human brain becomes the machine brain.Seen in another way, this is the
epitome of wearable robotics.In
the 1960¹s, the military began expressing an interest in this type of
technology as a way of augmenting the capabilities of soldiers and support
personnel.Partnering with GE, the
U.S. Army funded the manufacture of an initial prototype called the
³Hardyman.²For reasons having to
do with limitations of the technologies of the day, the concept was never fully
explored.

However, the idea of an
ultra-capable robot which a person can step into and ³wear² is pretty damn
cool, and the implications of this idea were not lost on the entertainment
industry.Seen notably in the
movie ³Aliens² and more recently in the second ³Matrix² movie, these devices,
known collectively as ³man-amplifiers,² have allowed their fictional cinematic
inhabitants to do some pretty amazing things.These film characters notwithstanding, the number of people
who have actually had the experience of being inside of a fully operational
anthropomorphic robot is extremely small.I would like to change that.

For Burning Man 2005, through
the auspices of Borg 2, I would like to build a full-scale anthro-botic suit
which attendees will have the opportunity to step into and operate from
within.Designated props and
sacrificial targets will be provided and arranged within the spatial envelope
capabilities of the machine, thereby offering operators the unique experience
of having the awesomely destructive power of high performance robotics
literally at their fingertips.

DESCRIPTION

The general design of this project is taking shape and is
described below.However, you can
also scroll to the bottom of this page where you will find links to a concept
sketch of the machine.

As seen in the image, the machine will incorporate a
tank-style tracked base and an anthropomorphic upper body.

All motion will be hydraulically achieved.Hydraulic power will be delivered
either by an on-board electric or engine-driven hydraulic power unit, or
alternatively by an off-board tethered electric power unit.

The operator compartment will be ergonomically configured
for comfort, likely incorporating a seat.The operator will be harnessed into the machine for safety, and this
harnessing system will be adjustable to accommodate operators of different
sizes.Operator control will be
achieved by two intuitively and ergonomically placed joysticks equipped with
auxiliary buttons for ancillary effector function control.

Construction will be
primarily steel, aluminum, and stainless steel.These latter two metals, aluminum and stainless, will be
used whenever cost allows are chosen for their corrosion resistance and general
sexiness.

The total number of
functional axes incorporated into the man-amplifier will be determined through
a careful consideration of the balance between the competing needs to A) make
the machine capable enough to be fun and rewarding for its operators and B) the
need to ensure that the completion of the project is a realistic goal.In addition to mobility achieved
through tank-style tracks, functions will include two claw-type end effectors
of different, yet-to-be-determined, specific form.The arms of the machine will likely be of a simplified
2-axis type. There is a reasonable likelihood that a flamethrower of some sort
will be incorporated into the design.This flamethrower, if it is included at all, will probably be oriented
in an upward direction for reasons of operator safety.

In keeping with my general
approach to robot-building, this Man Amplifier will not only be functional and
operational, but it will also be a thing of beauty.I believe that devices such as this should stand on their
own aesthetically, and as such this machine will be something that can be
appreciated whether in full-functioning mode or not.

BUDGET

Executed within the context of a research institute or
corporate/industrial environment, a project such as this would easily reach
into the hundreds of thousands of dollars or more.However, I will be drawing on: A) my years of experience of
building robots on a budget, B) my extensive store of personally owned parts
and supplies, C) my well outfitted metal shop, D) the talents of an excellent
crew which is already at my disposal, and in all likelihood E) a reasonably
large amount of my own personal funds in order to complete this project in time
for this years¹ event.

For the purposes of facilitating the completion of the
Man-Amplifier, I am requesting the sum of $6,000.The total cost of the project, given the compressed
timeframe, will certainly balloon larger than this figure, but I am prepared
and willing to cover these fully expected overruns with funding derived from
fund raisers and/or personal sources.

It would be close to impossible to detail the specifics of
a budget for a project such as this.Suffice to say that my many years of experience building robots and
similar devices in various contexts is sufficient for me to be able to
confidently predict a budget of approximately $8,000 to $12,000.

€ Fuel System Components (Depending on decision whether or
not to use engine-drive hydraulics)

€ Operator Compartment Components (Seat, Belts, Clips,
Etc.)

€ Electrical and Electronic System Components

€ Control System Components (Joysticks, Switches,
Foot-Pedals, Etc.)

BUILD TIMELINE

June 30th: Main tracked base frame
complete.Upper body frame has
been started and is assuming general shape.Actuators, motors, and other components have been sourced.

July 31st:Build is essentially complete.Locomotion systems complete and operational.Upper body complete, including arms and
end-effectors.Hydraulic plumbing,
control system implementation, and testing/trouble-shooting are all that remain.

August 27th:Build is complete.All systems have been tested, and the machine has been proofed for
safety, reliability, and functionality.Generators, related support equipment, and props, and materials for
safety perimeter construction have all been procured.

The machine and its¹ support crew are ready to travel.

SAFETY

This wearable robot, the Man
Amplifier, will be built to exacting safety standards.I take very seriously the reality that
this will be a machine that all manner of people will interact with.I fully understand that a reasonably
high proportion of the public is comprised of idiots.For this reason, this machine will be fully
idiot-proofed.

Top speed on this machine
will be carefully controlled, and will be quite slow.The machine will be designed so that it can not be
toppled.This will involve the implementation
of a wide, heavy base, as well as careful determination of arm lengths and
geometry during the build phase.The harnessing of the occupant will be equivalent to that of a typical
race-car.For this reason, even in
the unlikely event of a machine overturning, the occupant will be safe.The use of a motorcycle-type helmet
will also be required.

The machine will be enabled
with an on-board timing device of some sort which will disable all systems
after a given pre-determined amount of time.This will ensure that the drunk idiot, who is also
temporarily drunk with robotically induced power, and has decided that he
doesn¹t want to get out of the machine, will in fact be occupying a totally
inoperable device after a few minutes.

The robot will be allowed to
operate only within a given, defined space.At this time I envision two possible scenarios for the
completion of this objective.One
scenario involves an internal mechanical limitation on the machine itself which
would limit the amount of distance the machine would be able to travel.In this way, turning the machine and
smashing things would be unlimited, while driving the machine in any given
direction would be possible only to a certain distance.A light-duty guard rail would be
employed to keep members of the public out of the machine¹s operating
zone.A second scenario involves
the fabrication of a heavy duty guard rail surrounding the machine¹s operating
zone.This would be welded in
place and would be constructed to a level of robustness such that the machine
itself could not break through it.This guard rail would obviously also double as a crowd control barrier.

If there is any use of fuel
on the machine (a determination yet to be made and dependent upon pending power
system decisions) then there will be fire extinguishers furnished both on-board
the machine as will as in the immediate vicinity.

CLEANUP PLAN

Generally speaking, this will not be a particularly messy
installation.The machine itself
will make no mess.Props to be destroyed
by the machine will be the sole source of MOOP.The decision process regarding what kind of props to be used
will be heavily influenced by the need to minimize MOOP.At the time of this writing, items such
as car doors (free of glass), 55 gallon steel drums, and shopping carts seem to
be good candidates.I¹ll probably
think of more things in the months to come.All of this MOOP will be cleaned up and taken off the playa.

ASSISTANCE FROM BORG2

Very little assistance will be required from BORG2 for
this project.

The only thing that will actually be necessary is
personnel.This project will
require the presence and supervision of a trained technician/docent.This person should be capable of
assisting people in getting into and out of the machine, as well as turning it
on and off.In addition to the
crew of people which will accompany the machine to the playa, there should be
several more people trained in these simple procedures.

Free or cheap sources of metal, hydraulics components,
electrical or electronics components, or related materials are always
appreciated and could help significantly mitigate the costs and time associated
with the build.

ABOUT ME

(OR, WHY YOU SHOULD BELIEVE ME)

My name is Christian Ristow and I have been building robots
for over ten years.I have built
robots and related types of machines for private clients as well as for the
motion picture industry.However,
most of my building of these items has been for myself in the context of robot
performance.I worked extensively
with Survival Research Laboratories and Seemen, both of San Francisco, before
moving to Los Angeles in 1998 and commencing the execution of robot
performances under the name Robochrist Industries.I have a long track record of successfully executed
performances done on too little time and too little money.At this time I have a good-sized crew
of dedicated and talented people who work with me.I am the only person ever to have brought large-scale,
radio-controlled robots to Burning Man, and I have been doing it since 1996.

More information about me and my past exploits can be
found at my website

http://www.christianristow.com

I look forward to helping strap you into the Man Amplifier
and giving you the opportunity to really destroy some stuff!